The present application generally relates to gun accessories, and more particularly, to a gun magazine pouch.
Double magazine pouches are typically used by military personnel, SWAT teams, Federal Agents and others (hereinafter referred to as “operators”) who may need two or more magazines readily and rapidly available for use. One of the current problems with double stack magazine pouches is that it may be difficult to re-insert magazines into the pouch after the magazine is pulled out. The reasons for such possible difficulty in magazine reinsertion may be: (1) the pouch is not designed with the shape that closely resembles the shape of the magazine and is constructed with excess fabric; (2) when one magazine is removed from a double stack pouch, the other magazine is not secured in the pouch and flops around and also gets in the way of another magazine being inserted; (3) after one magazine is removed from the pouch, the excess space in the pouch may cause the second magazine to fallout during movement (e.g. take downs, climbing, get up and down on the ground behind cover, etc.). Thus, re-inserting a magazine in the currently available magazine pouches is time consuming. In particular, the operator may be required to use both hands to insert the magazine into the pouch. To overcome these deficiencies, a dump pouch may be used which is a large bag that attaches to an operator's belt into which magazines can be dumped. However, dump pouches also mean additional time during magazine exchanges because the pouch is usually mounted toward the back of an operator's belt. The additional time required for the operator to reach behind to access the pouch may hinder the operator's performance. The other problem with current pouch designs is that they do not account for other gear placed on body armor. One problem is that available space on body armor is limited and the operator may need to carry a large number of equipment (for example, grenade mags, radio, flares, etc). The other problem that operators face with current pouch designs is magazine management. Empty magazines are placed behind full ones when being re-inserted into the pouch. Due to the pouch's dimensions and problems mentioned above, reinserting magazines into the pouch becomes difficult. The other problem for operators is that when they need to pull a new magazine they have to look down to find the correct magazine to pull. This forces them to look down, taking their eyes off their surroundings, which increases the danger since they are no longer watching the enemy. Operators train countless hours to refine skills to avoid situations where they have to take their eyes off their environment. However, current double stack magazine pouches require the operators to look at the pouch to pull a magazine. Another problem with current pouches is the flap used to close the pouch. The flap typically opens from the front of the pouch (i.e., the side of the pouch that is farther from the operator) to allow access to the interior of the pouch. The problem with this design is that the flap gets in the way when re-inserting magazines into the pouch. Other variations of the flap have the flap open from the rear of the magazine so that the flap hangs in front of the pouch, and out of the way when re-inserting magazines. But the problem is that currently issued pouches and the vast majority of magazine pouches have flaps that open from the front. This creates muscle memory through training. If a magazine only opens from the rear, in the heat of battle, the operator may inadvertently try to lift the flap from the front, which is how they were trained.
Referring to
The biasing member 108 exerts a compressive force on the magazines to maintain the magazines in the pouch 100. Accordingly, the pouch 100 may not require a cover for preventing the magazines from falling out of the pouch 100. However, the pouch 100 may include a cover (an example shown in
An operator may reach for a magazine stored in the pouch 100 without looking at the pouch 100. To assist the operator in selecting and grabbing only one magazine or a preferred magazine, the pouch 100 is shaped such that the first magazine 102 is positioned at a different vertical location than the second magazine 104 to allow the operator to identify the magazines without looking at the pouch 100. The pouch 100 includes an inclined bottom 114 which is upwardly inclined from the back (i.e., near the operator) of the pouch 100 towards the front of the pouch 100. However, the bottom 114 may be inclined in any direction. As shown in
A pouch may be constructed so that the magazines that are to be placed in the pouch are oriented in a different direction than the direction of the magazines shown in the pouch of FIG. 1 in order to better suit the caliber of ammunition, properly position the pouch on an operator's body, and/or account for other obstacles, such as other pouches, equipment, and/or body parts of the operator. When using the pouch of
According to one example, the interior cavity 106 may be partially or fully coated with a rubber and/or other types of smooth or textured frictional coatings to increase friction between the magazines and any part of the pouch according to the disclosure. Such a coating may be necessary when unusually large, unusually light, and heavy and/or oddly shaped magazines are used with a pouch. According to other examples, the interior cavity 106 may be formed or coated with a different material than the material of the pouch to provide a preferred frictional property between the magazines being inserted in the pouch 100 and interior cavity 106 of the pouch 100. A frictional coating that is partially or fully applied to the interior cavity 106 may be selected based on the material of construction of one or more magazines and/or the surface properties of the one or more magazines to provide sufficient friction between the coating and the one or more magazines.
The magazine holding mechanism may be an integral part of any of the pouches according to the examples described herein. In another example, as described in detail below, the magazine holding mechanism or any part thereof may be a separate piece that can be removed to provide a lower profile to the size of the pouch for operators conducting missions in tight confines or operators who need to reduce as much gear weight as possible. Furthermore, the holding mechanism or any part thereof may be removable so as to be replaceable with another holding mechanism or holding mechanism part. For example, a biasing member 108 may be removed and replaced with a stiffer biasing member 108. According to another embodiment, the magazine holding mechanism can be removed to be used in other pouches.
Referring to
All of the above noted panels may be attached to one another by adhesive, welding, stitching and/or any other detachable or permanent attachment method that may be suitable for the materials used to construct each of the panels. For example, if the panels are constructed from fabric, the panels may be sewn together. Alternatively, some or all of the noted panels may be formed as one-piece continuous panels having perforated and/or hinged portions to allow folding and/or movement of one panel relative to another panel. The panels may be constructed from fabric, metal, plastic, mesh, webbing and/or composite materials.
The outer side panels 310 may be defined by a continuous one-piece panel that is attached to the inner panel 302 so as to create a pocket or sleeve 318 for housing the biasing member 316. The biasing member 316 may be constructed from a piece of aluminum, spring steel and/or plastic and bent into the shape as shown in
Referring to
Adjusting the depth 315 (shown in
To generally fix the size of the cavity 330 and secure the assembled configuration of the pouch 300, after the width and depth of the cavity 330 are adjusted as described above, the outer side panels 310 are attached to the inner side panels 308 and the outer panel 304 with fasteners, such as hook and loop fasteners 348 (e.g., Velcro®). The outer side panels 310 may also include outer tabs 311 that can wrap around the outside of the outer panel 304 and overlap each other. The outer tabs 311 may be secured together around the cavity 330 and over the outer panel 304 by using one or more fasteners, such as hook and loop fasteners 350 (e.g., Velcro®). To cover and prevent damage to the fasteners 350 (shown in
After the pouch 300 is assembled as described above, the pouch 300 may be attached to an operator's belt or other equipment with one or more fasteners that may be provided on the outside of the inner panel 302. If the pouch 300 is configured for storage of a single magazine, the magazine may be inserted into the pouch 300 as shown in
Access to the pouch may be provided by any type of cover that can be placed over the cavity 300. For example, a cover (not shown) may be attached to the inner panel 302 at one end and be removably attachable to the outer panel 304 at the opposite end. Referring to
A magazine holder or a magazine pouch as described herein may be constructed from any material such as flexible, pliable, rigid materials or a combination thereof. For example the pouch or any part thereof may be constructed from canvas, any type of fabric, plastic, metal, composite materials or a combination thereof. For example, the pouch may be constructed from canvas. In another example, one or more components of the pouch may include a plastic skeletal plate or structure that is enveloped or covered with a fabric such as canvas. The material of the pouch may be generally fire resistance and/or have a subdued infrared signature. A biasing member as described herein may be constructed from a metal such as spring steel, aluminum, an elastomer, other types of metals or artificial materials, elastic foam, or any type of material that provides the functions of the biasing member as described herein. The biasing member may include an anti-corrosion and or anti-rust coating to provide longevity and proper operation in various environmental conditions.
A fastener as referred to herein may be any type of fastener for detachable or permanent attachment of two parts together. For example a fastener may be a hook and loop fastener such as Velcro®, a strap, a button, a clip, a zipper, snaps, magnetic buttons or snaps, elastic cords, and elastic meshes, stitching, adhesive, welding, soldering, and/or any type of method or device used to detachably or permanently attach two parts together.
Although a particular order of actions is described above, these actions may be performed in other temporal sequences. For example, two or more actions described above may be performed sequentially, concurrently, or simultaneously. Alternatively, two or more actions may be performed in reversed order. Further, one or more actions described above may not be performed at all. The apparatus, methods, and articles of manufacture described herein are not limited in this regard.
While the invention has been described in connection with various aspects, it will be understood that the invention is capable of further modifications. The above described embodiments are exemplary and this application is intended to cover any variations, uses or adaptation of the invention following, in general, the principles of the invention, and including such departures from the present disclosure as come within the known and customary practice within the art to which the invention pertains.
The present application claims the benefit of the filing date of U.S. Provisional Patent Application Ser. No. 61/717,774, filed Oct. 24, 2012, the disclosure of which is incorporated herein by reference.
Number | Name | Date | Kind |
---|---|---|---|
666687 | Orndorff | Jan 1901 | A |
1756677 | Cook | Apr 1930 | A |
5152442 | Gallagher | Oct 1992 | A |
6026873 | Van Geer | Feb 2000 | A |
6491194 | Marvin | Dec 2002 | B2 |
6874618 | Cragg | Apr 2005 | B1 |
7918371 | Wilson | Apr 2011 | B2 |
8104656 | George | Jan 2012 | B1 |
8322065 | Faifer | Dec 2012 | B2 |
8733606 | Felts | May 2014 | B2 |
20130082080 | Hellweg | Apr 2013 | A1 |
20130098935 | Sheffield | Apr 2013 | A1 |
Number | Date | Country | |
---|---|---|---|
20140109455 A1 | Apr 2014 | US |
Number | Date | Country | |
---|---|---|---|
61717774 | Oct 2012 | US |